Chlorophyll contains magnesium, photosynthesis requires Iron at about 1000 magnesium atoms per iron atom. However, Iron still ends up the limiting factor in ocean ecosystems. https://zenodo.org/record/1258477
Anyway, Life can only chose chemical bonds that are possible. It’s perfectly reasonable to pick a specific temperature range and say here this is ideal for silicon lifeforms, but that means every chemical interaction must occur in that temperature range which is a major physical constraint.
We don’t know of many interesting and relevant Si compounds in large part because they don’t exist. It’s not even just chemical compounds life needs a water equivalent for all that cellular machinery to float around in and bump into each other.
Again: Relevant Si compounds don't exist here, because there is no Si-based life here. Our favorite carbon compounds would identically not exist in a Si-based ecosystem. That the useful compounds would not be simple substitutions of Si for C is of no importance. As I noted, some liquid-analog is likely involved in any spontaneously evolved ecology, but it does not need to be water, or even, technically, liquid-as-such.
Nature is not constrained to the limits of your imagination. I am frankly surprised to find you continuing to insist it is.
The tangible existence is irrelevant, computational chemistry is more than capable of exploring this territory. The issue isn’t simply finding giant complex molecules that would make up such hypothetical lifeforms it’s looking for the basic building blocks.
In the end all of chemistry comes down to quantum mechanics it really is quite constrained. Put another way you can list our every possible 2-9 atom molecule containing Silicon plus common elements and look at how the behave.
And, you claim to have not just made such a list, but also explored all of their possible interactions with one another and with what could be common non-Si compounds in their vicinity? You and what ten thousand universities?
You are just making things up. Who do you imagine believes you? Why do you want them to believe you?
Anyway, Life can only chose chemical bonds that are possible. It’s perfectly reasonable to pick a specific temperature range and say here this is ideal for silicon lifeforms, but that means every chemical interaction must occur in that temperature range which is a major physical constraint.
We don’t know of many interesting and relevant Si compounds in large part because they don’t exist. It’s not even just chemical compounds life needs a water equivalent for all that cellular machinery to float around in and bump into each other.